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Technical Program
Paper Detail
| Paper: | WA-P3.10 |
| Session: | Biomedical Imaging |
| Time: | Wednesday, October 11, 09:40 - 12:20 |
| Presentation: |
Poster
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| Title: |
HIGH DYNAMIC RANGE IMAGES AS A BASIS FOR DETECTION OF ARGYROPHILIC NUCLEOLAR ORGANIZER REGIONS UNDER VARYING STAIN INTENSITIES |
| Authors: |
Andre Bell; RWTH Aachen University | | | | | Jens Kaftan; RWTH Aachen University | | | | | Til Aach; RWTH Aachen University | | | | | Dietrich Meyer-Ebrecht; RWTH Aachen University | | | | | Alfred Böcking; Heinrich-Heine-University Düsseldorf | | |
| Abstract: |
Silver staining of cytopathologic specimens offers advantages in cancer diagnostics. A difficulty with such stained cell specimens is the very high dynamic range needed by the imaging system to appropriately cover the varying stain intensities. Beside those images of cell nuclei that can be used for the diagnostic interpretation, there are nuclei that appear too dark to observe their relevant properties, the so-called argyrophilic nucleolar organizer regions (AgNORs), which appear as spot-like areas darker than their immediate surroundings. We therefore show how high dynamic range images of nuclei can help to correctly segment the AgNORs. To this end, we acquire a sequence of differently exposed images, which are then combined into a high dynamic range image. Based on the dynamic range of the image signal within the segmented cell area, we compute another image which provides optimal contrast over this area of interest. To further increase the contrast for dark objects, a suitable nonlinear point transform is simultaneously applied. We provide examples of the thus generated images and their corresponding segmentations. |
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